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I have a template class that has a boolean template argument. Is there a legal way to cast it to a reference to the same object but with the boolean inverted?

As an illustrating example, below I have a Matrix class whose transpose can be represented by the same object data, but with the "transposed" template parameter reversed.

template <bool transposed>
class Transposable_matrix
{
    ...
    Transposable_matrix<!transposed>& transpose()
    {
        static_cast<Transposable_matrix<!transposed>& >(*this);
    }
};

The "transpose()" method above attempts to transpose the object without performing a copy, by simply returning a reference to the itself but with the transposed flag inverted. However, probably unsurprisingly, the cast operation fails at compile time. Is there an acceptable way of doing this? I'm guessing reinterpret_cast provides no guarantees of correctness. I could use a proxy object to represent the transposed object, but that would involve refactoring the entire class.

Edit

After using reinterpret cast, all my unit tests are passing. But reinterpret cast makes me nervous--does this fall under the category of "undefined behavior" and I just got lucky? Or since the two types (Matrix<true> and Matrix<false>) have identical members, should I be safe?

Edit 2 Would it help to note that this class has no virtual methods? So it seems like a bit-for-bit copy of the data members should be valid, regardless of the transposed state, so a c-style cast (or reinterpret cast) should always do what I expect, right?

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If you want to change the "type" at runtime, I don't think the template parameter is in any way useful. –  UncleBens Nov 14 '11 at 7:41
    
It allows me to do compile-time dimension checking for matrix arithmetic, which is actually quite useful. I can know the dimension of the result of a matrix multiplication at compile-time, which allows me to allocate the result on the stack instead of the heap--a big win for my application. And I can accomplish it using reinterpret cast in the sample above, I was just wondering if this is undefined behavior. –  Kyle Simek Nov 14 '11 at 15:59
    
It depends on what the class contains, but it would be sort-of better if you could return an instance by value. I can't really imagine what would be the meaning of Matrix<false> obj; Matrix<true>& ref = a.transpose(); The original obj is still there but it is transposed, although the type says otherwise?? –  UncleBens Nov 14 '11 at 16:25
    
The original obj is unmodified, and ref is a "view" of obj in transposed form and all operations on it will simply reverse their indexing order. For example, obj(i,j) == ref(j,i) and &obj(i,j) == &ref(j,i) for all i,j. And ref(i,j) = 1234; assert(obj(j,i) == 1234). –  Kyle Simek Nov 14 '11 at 16:44
    
Also, it lets you do assignment into the transposed version, Matlab-style: mat_2x3.transpose() = mat_3x2; This wouldn't be possible with return-by-value. –  Kyle Simek Nov 14 '11 at 16:49

1 Answer 1

The "transpose()" method below attempts to transpose the object without performing a copy, by simply returning a reference to the itself but with the transposed flag inverted.

That is not possible.

For any value of transposed (which is boolean), Transposable_matrix<true> and Transposable_matrix<false> are two different and incompatible types. One cannot be casted to another using static_cast.

share|improve this answer
    
like I said: "However, probably unsurprisingly, the cast operation fails at compile time." I'm wondering if there's a safe way to do this with an unsafe cast, since I know that the data fields and methods are identical. –  Kyle Simek Nov 14 '11 at 19:10

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